Adhesion, intracellular signalling and osteogenic differentiation of mesenchymal progenitor cells and preosteoblasts on poly (epsilon) caprolactone films …
J Jann, O Drevelle, MA Lauzon, N Faucheux - Materials Science and …, 2020 - Elsevier
Biomaterials that can control the behaviour of stem cells play a major role in regenerative
medicine and tissue engineering. We previously showed that poly (epsilon) caprolactone …
medicine and tissue engineering. We previously showed that poly (epsilon) caprolactone …
Adhesion, intracellular signalling and osteogenic differentiation of mesenchymal progenitor cells and preosteoblasts on poly (epsilon) caprolactone films …
J Jann, O Drevelle, MA Lauzon… - Materials science & …, 2020 - pubmed.ncbi.nlm.nih.gov
Biomaterials that can control the behaviour of stem cells play a major role in regenerative
medicine and tissue engineering. We previously showed that poly (epsilon) caprolactone …
medicine and tissue engineering. We previously showed that poly (epsilon) caprolactone …
Adhesion, intracellular signalling and osteogenic differentiation of mesenchymal progenitor cells and preosteoblasts on poly (epsilon) caprolactone films …
J Jann, O Drevelle, MA Lauzon… - Materials Science & …, 2020 - europepmc.org
Biomaterials that can control the behaviour of stem cells play a major role in regenerative
medicine and tissue engineering. We previously showed that poly (epsilon) caprolactone …
medicine and tissue engineering. We previously showed that poly (epsilon) caprolactone …
Adhesion, intracellular signalling and osteogenic differentiation of mesenchymal progenitor cells and preosteoblasts on poly (epsilon) caprolactone films …
J Jann, O Drevelle, MA Lauzon… - Materials Science and …, 2020 - hero.epa.gov
Biomaterials that can control the behaviour of stem cells play a major role in regenerative
medicine and tissue engineering. We previously showed that poly (epsilon) caprolactone …
medicine and tissue engineering. We previously showed that poly (epsilon) caprolactone …